EFM-CU-MIB DEFINITIONS::=BEGINIMPORTSMODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, Integer32,
Unsigned32, Counter32, mib-2FROM SNMPv2-SMI -- [RFC2578]TEXTUAL-CONVENTION, TruthValue, RowStatus, PhysAddressFROM SNMPv2-TC -- [RFC2579]MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUPFROM SNMPv2-CONF -- [RFC2580]
SnmpAdminString
FROM SNMP-FRAMEWORK-MIB -- [RFC3411]ifIndex, ifSpeed
FROM IF-MIB -- [RFC2863]
;
efmCuMIB MODULE-IDENTITYLAST-UPDATED"200711140000Z"-- November 14, 2007ORGANIZATION"IETF Ethernet Interfaces and Hub MIB Working Group"CONTACT-INFO"WG charter:
http://www.ietf.org/html.charters/OLD/hubmib-charter.html
Mailing Lists:
General Discussion: hubmib@ietf.org
To Subscribe: hubmib-request@ietf.org
In Body: subscribe your_email_address
Chair: Bert Wijnen
Postal: Alcatel-Lucent
Schagen 33
3461 GL Linschoten
Netherlands
Phone: +31-348-407-775
EMail: bwijnen@alcatel-lucent.com
Editor: Edward Beili
Postal: Actelis Networks Inc.
25 Bazel St., P.O.B. 10173
Petach-Tikva 10173
Israel
Phone: +972-3-924-3491
Email: edward.beili@actelis.com"DESCRIPTION"The objects in this MIB module are used to manage
the Ethernet in the First Mile (EFM) Copper (EFMCu) Interfaces
2BASE-TL and 10PASS-TS, defined in IEEE Std. 802.3ah-2004,
which is now a part of IEEE Std. 802.3-2005.
The following references are used throughout this MIB module:
[802.3ah] refers to:
IEEE Std 802.3ah-2004: 'IEEE Standard for Information
technology - Telecommunications and information exchange
between systems - Local and metropolitan area networks -
Specific requirements -
Part 3: Carrier Sense Multiple Access with Collision
Detection (CSMA/CD) Access Method and Physical Layer
Specifications -
Amendment: Media Access Control Parameters, Physical
Layers and Management Parameters for Subscriber Access
Networks', 07 September 2004.
Of particular interest are Clause 61, 'Physical Coding
Sublayer (PCS) and common specifications, type 10PASS-TS and
type 2BASE-TL', Clause 30, 'Management', Clause 45,
'Management Data Input/Output (MDIO) Interface', Annex 62A,
'PMD profiles for 10PASS-TS' and Annex 63A, 'PMD profiles for
2BASE-TL'.
[G.991.2] refers to:
ITU-T Recommendation G.991.2: 'Single-pair High-speed Digital
Subscriber Line (SHDSL) transceivers', December 2003.
[ANFP] refers to:
NICC Document ND1602:2005/08: 'Specification of the Access
Network Frequency Plan (ANFP) applicable to transmission
systems used on the BT Access Network,' August 2005.
The following normative documents are quoted by the DESCRIPTION
clauses in this MIB module:
[G.993.1] refers to:
ITU-T Recommendation G.993.1: 'Very High speed Digital
Subscriber Line transceivers', June 2004.
[T1.424] refers to:
ANSI T1.424-2004: 'Interface Between Networks and Customer
Installation Very-high-bit-rate Digital Subscriber Lines
(VDSL) Metallic Interface (DMT Based)', June 2004.
[TS 101 270-1] refers to:
ETSI TS 101 270-1: 'Transmission and Multiplexing (TM);
Access transmission systems on metallic access cables;
Very high speed Digital Subscriber Line (VDSL); Part 1:
Functional requirements', October 2005.
Naming Conventions:
Atn - Attenuation
CO - Central Office
CPE - Customer Premises Equipment
EFM - Ethernet in the First Mile
EFMCu - EFM Copper
MDIO - Management Data Input/Output
Mgn - Margin
PAF - PME Aggregation Function
PBO - Power Back-Off
PCS - Physical Coding Sublayer
PMD - Physical Medium Dependent
PME - Physical Medium Entity
PSD - Power Spectral Density
SNR - Signal to Noise Ratio
TCPAM - Trellis Coded Pulse Amplitude Modulation
Copyright (C) The IETF Trust (2007). This version
of this MIB module is part of RFC 5066; see the RFC
itself for full legal notices."REVISION"200711140000Z"-- November 14, 2007DESCRIPTION"Initial version, published as RFC 5066."::={mib-2167}-- Sections of the module
efmCuObjects OBJECTIDENTIFIER::={ efmCuMIB 1}
efmCuConformance OBJECTIDENTIFIER::={ efmCuMIB 2}-- Groups in the module
efmCuPort OBJECTIDENTIFIER::={ efmCuObjects 1}
efmCuPme OBJECTIDENTIFIER::={ efmCuObjects 2}-- Textual Conventions
EfmProfileIndex ::=TEXTUAL-CONVENTIONDISPLAY-HINT"d"STATUScurrentDESCRIPTION"A unique value, greater than zero, for each PME configuration
profile in the managed EFMCu port. It is RECOMMENDED that
values are assigned contiguously starting from 1. The value
for each profile MUST remain constant at least from one
re-initialization of the entity's network management system
to the next re-initialization."SYNTAX Unsigned32 (1..255)
EfmProfileIndexOrZero ::=TEXTUAL-CONVENTIONDISPLAY-HINT"d"STATUScurrentDESCRIPTION"This textual convention is an extension of the
EfmProfileIndex convention. The latter defines a greater than
zero value used to identify a PME profile in the managed EFMCu
port. This extension permits the additional value of zero.
The value of zero is object-specific and MUST therefore be
defined as part of the description of any object that uses
this syntax.
Examples of the usage of zero value might include situations
where the current operational profile is unknown."SYNTAX Unsigned32 (0..255)
EfmProfileIndexList ::=TEXTUAL-CONVENTIONDISPLAY-HINT"1d:"STATUScurrentDESCRIPTION"This textual convention represents a list of up to 6
EfmProfileIndex values, any of which can be chosen for
configuration of a PME in a managed EFMCu port.
The EfmProfileIndex textual convention defines a greater than
zero value used to identify a PME profile.
The value of this object is a concatenation of zero or
more (up to 6) octets, where each octet contains an 8-bit
EfmProfileIndex value.
A zero-length octet string is object-specific and MUST
therefore be defined as part of the description of any object
that uses this syntax. Examples of the usage of a zero-length
value might include situations where an object using this
textual convention is irrelevant for a specific EFMCu port
type."SYNTAXOCTETSTRING(SIZE(0..6))
EfmTruthValueOrUnknown ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This textual convention is an extension of the TruthValue
convention. The latter defines a boolean value with possible
values of true(1) and false(2). This extension permits the
additional value of unknown(0), which can be returned as the
result of a GET operation when an exact true or false value
of the object cannot be determined."SYNTAXINTEGER{ unknown(0), true(1), false(2)}-- Port Notifications Group
efmCuPortNotifications OBJECTIDENTIFIER::={ efmCuPort 0}
efmCuLowRateCrossing NOTIFICATION-TYPEOBJECTS{
ifSpeed,
efmCuThreshLowRate
}STATUScurrentDESCRIPTION"This notification indicates that the EFMCu port's data rate
has reached/dropped below or exceeded the low rate threshold,
specified by efmCuThreshLowRate.
This notification MAY be sent for the -O subtype ports
(2BaseTL-O/10PassTS-O) while the port is Up, on the crossing
event in both directions: from normal (rate is above the
threshold) to low (rate equals the threshold or below it) and
from low to normal. This notification is not applicable to
the -R subtypes.
It is RECOMMENDED that a small debouncing period of 2.5 sec,
between the detection of the condition and the notification,
is implemented to prevent simultaneous LinkUp/LinkDown and
efmCuLowRateCrossing notifications to be sent.
The adaptive nature of the EFMCu technology allows the port to
adapt itself to the changes in the copper environment, e.g.,
an impulse noise, alien crosstalk, or a micro-interruption may
temporarily drop one or more PMEs in the aggregation group,
causing a rate degradation of the aggregated EFMCu link.
The dropped PMEs would then try to re-initialize, possibly at
a lower rate than before, adjusting the rate to provide
required target SNR margin.
Generation of this notification is controlled by the
efmCuLowRateCrossingEnable object."::={ efmCuPortNotifications 1}-- PCS Port group
efmCuPortConfTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPortConfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Table for Configuration of EFMCu 2BASE-TL/10PASS-TS (PCS)
Ports. Entries in this table MUST be maintained in a
persistent manner."::={ efmCuPort 1}
efmCuPortConfEntry OBJECT-TYPESYNTAX EfmCuPortConfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu Port Configuration table.
Each entry represents an EFMCu port indexed by the ifIndex.
Note that an EFMCu PCS port runs on top of a single
or multiple PME port(s), which are also indexed by ifIndex."INDEX{ifIndex}::={ efmCuPortConfTable 1}
EfmCuPortConfEntry ::=SEQUENCE{
efmCuPAFAdminState INTEGER,
efmCuPAFDiscoveryCode PhysAddress,
efmCuAdminProfile EfmProfileIndexList,
efmCuTargetDataRate Unsigned32,
efmCuTargetSnrMgn Unsigned32,
efmCuAdaptiveSpectra TruthValue,
efmCuThreshLowRate Unsigned32,
efmCuLowRateCrossingEnable TruthValue}
efmCuPAFAdminState OBJECT-TYPESYNTAXINTEGER{
enabled(1),
disabled(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Administrative (desired) state of the PAF of the EFMCu port
(PCS).
When 'disabled', PME aggregation will not be performed by the
PCS. No more than a single PME can be assigned to this PCS in
this case.
When 'enabled', PAF will be performed by the PCS when the link
is Up, even on a single attached PME, if PAF is supported.
PCS ports incapable of supporting PAF SHALL return a value of
'disabled'. Attempts to 'enable' such ports SHALL be
rejected.
A PAF 'enabled' port with multiple PMEs assigned cannot be
'disabled'. Attempts to 'disable' such port SHALL be
rejected, until at most one PME is left assigned.
Changing PAFAdminState is a traffic-disruptive operation and
as such SHALL be done when the link is Down. Attempts to
change this object SHALL be rejected if the link is Up or
Initializing.
This object maps to the Clause 30 attribute aPAFAdminState.
If a Clause 45 MDIO Interface to the PCS is present, then this
object maps to the PAF enable bit in the 10P/2B PCS control
register.
This object MUST be maintained in a persistent manner."REFERENCE"[802.3ah] 61.2.2, 45.2.3.18.3"::={ efmCuPortConfEntry 1}
efmCuPAFDiscoveryCode OBJECT-TYPESYNTAXPhysAddress(SIZE(0|6))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"PAF Discovery Code of the EFMCu port (PCS).
A unique 6-octet code used by the Discovery function,
when PAF is supported.
PCS ports incapable of supporting PAF SHALL return a
zero-length octet string on an attempt to read this object.
An attempt to write to this object SHALL be rejected for such
ports.
This object MUST be instantiated for the -O subtype PCS before
writing operations on the efmCuPAFRemoteDiscoveryCode
(Set_if_Clear and Clear_if_Same) are performed by PMEs
associated with the PCS.
The initial value of this object for -R subtype ports after
reset is all zeroes. For -R subtype ports, the value of this
object cannot be changed directly. This value may be changed
as a result of writing operation on the
efmCuPAFRemoteDiscoveryCode object of remote PME of -O
subtype, connected to one of the local PMEs associated with
the PCS.
Discovery MUST be performed when the link is Down.
Attempts to change this object MUST be rejected (in case of
SNMP with the error inconsistentValue), if the link is Up or
Initializing.
The PAF Discovery Code maps to the local Discovery code
variable in PAF (note that it does not have a corresponding
Clause 45 register)."REFERENCE"[802.3ah] 61.2.2.8.3, 61.2.2.8.4, 45.2.6.6.1, 45.2.6.8,
61A.2"::={ efmCuPortConfEntry 2}
efmCuAdminProfile OBJECT-TYPESYNTAX EfmProfileIndexList
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Desired configuration profile(s), common for all PMEs in the
EFMCu port. This object is a list of pointers to entries in
either efmCuPme2BProfileTable or
efmCuPme10PProfileTable, depending on the current
operating SubType of the EFMCu port as indicated by
efmCuPortSide.
The value of this object is a list of up to 6 indices of
profiles. If this list consists of a single profile index,
then all PMEs assigned to this EFMCu port SHALL be configured
according to the profile referenced by that index, unless it
is overwritten by a corresponding non-zero
efmCuPmeAdminProfile instance, which takes precedence over
efmCuAdminProfile.
A list consisting of more than one index allows each PME
in the port to be configured according to any profile
specified in the list.
By default, this object has a value of 0x01, referencing the
1st entry in efmCuPme2BProfileTable or
efmCuPme10PProfileTable.
This object is writable and readable for the -O subtype
(2BaseTL-O or 10PassTS-O) EFMCu ports. It is irrelevant for
the -R subtype (2BaseTL-R or 10PassTS-R) ports -- a
zero-length octet string SHALL be returned on an attempt to
read this object and an attempt to change this object MUST be
rejected in this case.
Note that the current operational profile value is available
via the efmCuPmeOperProfile object.
Any modification of this object MUST be performed when the
link is Down. Attempts to change this object MUST be
rejected, if the link is Up or Initializing.
Attempts to set this object to a list with a member value that
is not the value of the index for an active entry in the
corresponding profile table MUST be rejected.
This object maps to the Clause 30 attribute aProfileSelect.
This object MUST be maintained in a persistent manner."REFERENCE"[802.3ah] 30.11.2.1.6"DEFVAL{'01'H }::={ efmCuPortConfEntry 3}
efmCuTargetDataRate OBJECT-TYPESYNTAX Unsigned32(1..100000|999999)UNITS"Kbps"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Desired EFMCu port 'net' (as seen across MII) Data Rate in
Kbps, to be achieved during initialization, under spectral
restrictions placed on each PME via efmCuAdminProfile or
efmCuPmeAdminProfile, with the desired SNR margin specified by
efmCuTargetSnrMgn.
In case of PAF, this object represents a sum of individual PME
data rates, modified to compensate for fragmentation and
64/65-octet encapsulation overhead (e.g., target data rate of
10 Mbps SHALL allow lossless transmission of a full-duplex
10 Mbps Ethernet frame stream with minimal inter-frame gap).
The value is limited above by 100 Mbps as this is the max
burst rate across MII for EFMCu ports.
The value between 1 and 100000 indicates that the total data
rate (ifSpeed) of the EFMCu port after initialization SHALL be
equal to the target data rate or less, if the target data rate
cannot be achieved under spectral restrictions specified by
efmCuAdminProfile/efmCuPmeAdminProfile and with the desired
SNR margin. In case the copper environment allows a higher
total data rate to be achieved than that specified by the
target, the excess capability SHALL be either converted to
additional SNR margin or reclaimed by minimizing transmit
power as controlled by efmCuAdaptiveSpectra.
The value of 999999 means that the target data rate is not
fixed and SHALL be set to the maximum attainable rate during
initialization (Best Effort), under specified spectral
restrictions and with the desired SNR margin.
This object is read-write for the -O subtype EFMCu ports
(2BaseTL-O/10PassTS-O) and not available for the -R subtypes.
Changing of the Target Data Rate MUST be performed when the
link is Down. Attempts to change this object MUST be rejected
(in case of SNMP with the error inconsistentValue), if the
link is Up or Initializing.
Note that the current Data Rate of the EFMCu port is
represented by the ifSpeed object of IF-MIB.
This object MUST be maintained in a persistent manner."::={ efmCuPortConfEntry 4}
efmCuTargetSnrMgn OBJECT-TYPESYNTAX Unsigned32(0..21)UNITS"dB"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Desired EFMCu port SNR margin to be achieved on all PMEs
assigned to the port, during initialization. (The SNR margin
is the difference between the desired SNR and the actual SNR).
Note that 802.3ah recommends using a default target SNR margin
of 5 dB for 2BASE-TL ports and 6 dB for 10PASS-TS ports in
order to achieve a mean Bit Error Rate (BER) of 10^-7 at the
PMA service interface.
This object is read-write for the -O subtype EFMCu ports
(2BaseTL-O/10PassTS-O) and not available for the -R subtypes.
Changing of the target SNR margin MUST be performed when the
link is Down. Attempts to change this object MUST be rejected
(in case of SNMP with the error inconsistentValue), if the
link is Up or Initializing.
Note that the current SNR margin of the PMEs comprising the
EFMCu port is represented by efmCuPmeSnrMgn.
This object MUST be maintained in a persistent manner."REFERENCE"[802.3ah] 61.1.2"::={ efmCuPortConfEntry 5}
efmCuAdaptiveSpectra OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates how to utilize excess capacity when the copper
environment allows a higher total data rate to be achieved
than that specified by the efmCuTargetDataRate.
A value of true(1) indicates that the excess capability SHALL
be reclaimed by minimizing transmit power, e.g., using higher
constellations and Power Back-Off, in order to reduce
interference to other copper pairs in the binder and the
adverse impact to link/system performance.
A value of false(2) indicates that the excess capability SHALL
be converted to additional SNR margin and spread evenly across
all active PMEs assigned to the (PCS) port, to increase link
robustness.
This object is read-write for the -O subtype EFMCu ports
(2BaseTL-O/10PassTS-O) and not available for the -R subtypes.
Changing of this object MUST be performed when the link is
Down. Attempts to change this object MUST be rejected (in
case of SNMP with the error inconsistentValue), if the link
is Up or Initializing.
This object MUST be maintained in a persistent manner."::={ efmCuPortConfEntry 6}
efmCuThreshLowRate OBJECT-TYPESYNTAX Unsigned32(1..100000)UNITS"Kbps"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object configures the EFMCu port low-rate crossing alarm
threshold. When the current value of ifSpeed for this port
reaches/drops below or exceeds this threshold, an
efmCuLowRateCrossing notification MAY be generated if enabled
by efmCuLowRateCrossingEnable.
This object is read-write for the -O subtype EFMCu ports
(2BaseTL-O/10PassTS-O) and not available for the -R subtypes.
This object MUST be maintained in a persistent manner."::={ efmCuPortConfEntry 7}
efmCuLowRateCrossingEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates whether efmCuLowRateCrossing notifications should
be generated for this interface.
A value of true(1) indicates that efmCuLowRateCrossing
notification is enabled. A value of false(2) indicates that
the notification is disabled.
This object is read-write for the -O subtype EFMCu ports
(2BaseTL-O/10PassTS-O) and not available for the -R subtypes.
This object MUST be maintained in a persistent manner."::={ efmCuPortConfEntry 8}
efmCuPortCapabilityTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPortCapabilityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Table for Capabilities of EFMCu 2BASE-TL/10PASS-TS (PCS)
Ports. Entries in this table MUST be maintained in a
persistent manner"::={ efmCuPort 2}
efmCuPortCapabilityEntry OBJECT-TYPESYNTAX EfmCuPortCapabilityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu Port Capability table.
Each entry represents an EFMCu port indexed by the ifIndex.
Note that an EFMCu PCS port runs on top of a single
or multiple PME port(s), which are also indexed by ifIndex."INDEX{ifIndex}::={ efmCuPortCapabilityTable 1}
EfmCuPortCapabilityEntry ::=SEQUENCE{
efmCuPAFSupported TruthValue,
efmCuPeerPAFSupported EfmTruthValueOrUnknown,
efmCuPAFCapacity Unsigned32,
efmCuPeerPAFCapacity Unsigned32
}
efmCuPAFSupported OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-onlySTATUScurrentDESCRIPTION"PME Aggregation Function (PAF) capability of the EFMCu port
(PCS).
This object has a value of true(1) when the PCS can perform
PME aggregation on the available PMEs.
Ports incapable of PAF SHALL return a value of false(2).
This object maps to the Clause 30 attribute aPAFSupported.
If a Clause 45 MDIO Interface to the PCS is present,
then this object maps to the PAF available bit in the
10P/2B capability register."REFERENCE"[802.3ah] 61.2.2, 30.11.1.1.4, 45.2.3.17.1"::={ efmCuPortCapabilityEntry 1}
efmCuPeerPAFSupported OBJECT-TYPESYNTAX EfmTruthValueOrUnknown
MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"PME Aggregation Function (PAF) capability of the EFMCu port
(PCS) link partner.
This object has a value of true(1) when the remote PCS can
perform PME aggregation on its available PMEs.
Ports whose peers are incapable of PAF SHALL return a value
of false(2).
Ports whose peers cannot be reached because of the link
state SHALL return a value of unknown(0).
This object maps to the Clause 30 attribute
aRemotePAFSupported.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the Remote PAF supported bit in the
10P/2B capability register."REFERENCE"[802.3ah] 61.2.2, 30.11.1.1.9, 45.2.3.17.2"::={ efmCuPortCapabilityEntry 2}
efmCuPAFCapacity OBJECT-TYPESYNTAX Unsigned32 (1..32)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Number of PMEs that can be aggregated by the local PAF.
The number of PMEs currently assigned to a particular
EFMCu port (efmCuNumPMEs) is never greater than
efmCuPAFCapacity.
This object maps to the Clause 30 attribute
aLocalPAFCapacity."REFERENCE"[802.3ah] 61.2.2, 30.11.1.1.6"::={ efmCuPortCapabilityEntry 3}
efmCuPeerPAFCapacity OBJECT-TYPESYNTAX Unsigned32 (0|1..32)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Number of PMEs that can be aggregated by the PAF of the peer
PHY (PCS port).
A value of 0 is returned when peer PAF capacity is unknown
(peer cannot be reached).
This object maps to the Clause 30 attribute
aRemotePAFCapacity."REFERENCE"[802.3ah] 61.2.2, 30.11.1.1.10"::={ efmCuPortCapabilityEntry 4}
efmCuPortStatusTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPortStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table provides overall status information of EFMCu
2BASE-TL/10PASS-TS ports, complementing the generic status
information from the ifTable of IF-MIB and ifMauTable of
MAU-MIB. Additional status information about connected PMEs
is available from the efmCuPmeStatusTable.
This table contains live data from the equipment. As such,
it is NOT persistent."::={ efmCuPort 3}
efmCuPortStatusEntry OBJECT-TYPESYNTAX EfmCuPortStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu Port Status table.
Each entry represents an EFMCu port indexed by the ifIndex.
Note that an EFMCu PCS port runs on top of a single
or multiple PME port(s), which are also indexed by ifIndex."INDEX{ifIndex}::={ efmCuPortStatusTable 1}
EfmCuPortStatusEntry ::=SEQUENCE{
efmCuFltStatus BITS,
efmCuPortSide INTEGER,
efmCuNumPMEs Unsigned32,
efmCuPAFInErrors Counter32,
efmCuPAFInSmallFragments Counter32,
efmCuPAFInLargeFragments Counter32,
efmCuPAFInBadFragments Counter32,
efmCuPAFInLostFragments Counter32,
efmCuPAFInLostStarts Counter32,
efmCuPAFInLostEnds Counter32,
efmCuPAFInOverflows Counter32}
efmCuFltStatus OBJECT-TYPESYNTAXBITS{
noPeer(0),
peerPowerLoss(1),
pmeSubTypeMismatch(2),
lowRate(3)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"EFMCu (PCS) port Fault Status. This is a bitmap of possible
conditions. The various bit positions are:
noPeer - the peer PHY cannot be reached (e.g.,
no PMEs attached, all PMEs are Down,
etc.). More info is available in
efmCuPmeFltStatus.
peerPowerLoss - the peer PHY has indicated impending
unit failure due to loss of local
power ('Dying Gasp').
pmeSubTypeMismatch - local PMEs in the aggregation group
are not of the same subtype, e.g.,
some PMEs in the local device are -O
while others are -R subtype.
lowRate - ifSpeed of the port reached or dropped
below efmCuThreshLowRate.
This object is intended to supplement the ifOperStatus object
in IF-MIB and ifMauMediaAvailable in MAU-MIB.
Additional information is available via the efmCuPmeFltStatus
object for each PME in the aggregation group (single PME if
PAF is disabled)."REFERENCE"IF-MIB, ifOperStatus; MAU-MIB, ifMauMediaAvailable;
efmCuPmeFltStatus"::={ efmCuPortStatusEntry 1}
efmCuPortSide OBJECT-TYPESYNTAXINTEGER{
subscriber(1),
office(2),
unknown(3)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"EFM port mode of operation (subtype).
The value of 'subscriber' indicates that the port is
designated as '-R' subtype (all PMEs assigned to this port are
of subtype '-R').
The value of the 'office' indicates that the port is
designated as '-O' subtype (all PMEs assigned to this port are
of subtype '-O').
The value of 'unknown' indicates that the port has no assigned
PMEs yet or that the assigned PMEs are not of the same side
(subTypePMEMismatch).
This object partially maps to the Clause 30 attribute
aPhyEnd."REFERENCE"[802.3ah] 61.1, 30.11.1.1.2"::={ efmCuPortStatusEntry 2}
efmCuNumPMEs OBJECT-TYPESYNTAX Unsigned32 (0..32)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of PMEs that is currently aggregated by the local
PAF (assigned to the EFMCu port using the ifStackTable).
This number is never greater than efmCuPAFCapacity.
This object SHALL be automatically incremented or decremented
when a PME is added or deleted to/from the EFMCu port using
the ifStackTable."REFERENCE"[802.3ah] 61.2.2, 30.11.1.1.6"::={ efmCuPortStatusEntry 3}
efmCuPAFInErrors OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of fragments that have been received across the
gamma interface with RxErr asserted and discarded.
This read-only counter is inactive (not incremented) when the
PAF is unsupported or disabled. Upon disabling the PAF, the
counter retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF RX error register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.21"::={ efmCuPortStatusEntry 4}
efmCuPAFInSmallFragments OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of fragments smaller than minFragmentSize
(64 bytes) that have been received across the gamma interface
and discarded.
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF small fragments register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.22"::={ efmCuPortStatusEntry 5}
efmCuPAFInLargeFragments OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of fragments larger than maxFragmentSize
(512 bytes) that have been received across the gamma interface
and discarded.
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF large fragments register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.23"::={ efmCuPortStatusEntry 6}
efmCuPAFInBadFragments OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of fragments that do not fit into the sequence
expected by the frame assembly function and that have been
received across the gamma interface and discarded (the
frame buffer is flushed to the next valid frame start).
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF bad fragments register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.25"::={ efmCuPortStatusEntry 7}
efmCuPAFInLostFragments OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of gaps in the sequence of fragments that have
been received across the gamma interface (the frame buffer is
flushed to the next valid frame start, when fragment/fragments
expected by the frame assembly function is/are not received).
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF lost fragment register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.26"::={ efmCuPortStatusEntry 8}
efmCuPAFInLostStarts OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of missing StartOfPacket indicators expected by
the frame assembly function.
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF lost start of fragment
register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.27"::={ efmCuPortStatusEntry 9}
efmCuPAFInLostEnds OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of missing EndOfPacket indicators expected by the
frame assembly function.
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF lost start of fragment
register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.28"::={ efmCuPortStatusEntry 10}
efmCuPAFInOverflows OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of fragments, received across the gamma interface
and discarded, which would have caused the frame assembly
buffer to overflow.
This read-only counter is inactive when the PAF is
unsupported or disabled. Upon disabling the PAF, the counter
retains its previous value.
If a Clause 45 MDIO Interface to the PCS is present, then
this object maps to the 10P/2B PAF overflow register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.3.24"::={ efmCuPortStatusEntry 11}-- PME Notifications Group
efmCuPmeNotifications OBJECTIDENTIFIER::={ efmCuPme 0}
efmCuPmeLineAtnCrossing NOTIFICATION-TYPEOBJECTS{
efmCuPmeLineAtn,
efmCuPmeThreshLineAtn
}STATUScurrentDESCRIPTION"This notification indicates that the loop attenuation
threshold (as per the efmCuPmeThreshLineAtn
value) has been reached/exceeded for the 2BASE-TL/10PASS-TS
PME. This notification MAY be sent on the crossing event in
both directions: from normal to exceeded and from exceeded
to normal.
It is RECOMMENDED that a small debouncing period of 2.5 sec,
between the detection of the condition and the notification,
is implemented to prevent intermittent notifications from
being sent.
Generation of this notification is controlled by the
efmCuPmeLineAtnCrossingEnable object."::={ efmCuPmeNotifications 1}
efmCuPmeSnrMgnCrossing NOTIFICATION-TYPEOBJECTS{
efmCuPmeSnrMgn,
efmCuPmeThreshSnrMgn
}STATUScurrentDESCRIPTION"This notification indicates that the SNR margin threshold
(as per the efmCuPmeThreshSnrMgn value) has been
reached/exceeded for the 2BASE-TL/10PASS-TS PME.
This notification MAY be sent on the crossing event in
both directions: from normal to exceeded and from exceeded
to normal.
It is RECOMMENDED that a small debouncing period of 2.5 sec,
between the detection of the condition and the notification,
is implemented to prevent intermittent notifications from
being sent.
Generation of this notification is controlled by the
efmCuPmeSnrMgnCrossingEnable object."::={ efmCuPmeNotifications 2}
efmCuPmeDeviceFault NOTIFICATION-TYPEOBJECTS{
efmCuPmeFltStatus
}STATUScurrentDESCRIPTION"This notification indicates that a fault in the PME has been
detected by a vendor-specific diagnostic or a self-test.
Generation of this notification is controlled by the
efmCuPmeDeviceFaultEnable object."::={ efmCuPmeNotifications 3}
efmCuPmeConfigInitFailure NOTIFICATION-TYPEOBJECTS{
efmCuPmeFltStatus,
efmCuAdminProfile,
efmCuPmeAdminProfile
}STATUScurrentDESCRIPTION"This notification indicates that PME initialization has
failed, due to inability of the PME link to achieve the
requested configuration profile.
Generation of this notification is controlled by the
efmCuPmeConfigInitFailEnable object."::={ efmCuPmeNotifications 4}
efmCuPmeProtocolInitFailure NOTIFICATION-TYPEOBJECTS{
efmCuPmeFltStatus,
efmCuPmeOperSubType
}STATUScurrentDESCRIPTION"This notification indicates that the peer PME was using
an incompatible protocol during initialization.
Generation of this notification is controlled by the
efmCuPmeProtocolInitFailEnable object."::={ efmCuPmeNotifications 5}-- The PME group
efmCuPmeConfTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPmeConfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Table for Configuration of common aspects for EFMCu
2BASE-TL/10PASS-TS PME ports (modems). Configuration of
aspects specific to 2BASE-TL or 10PASS-TS PME types is
represented in efmCuPme2BConfTable and efmCuPme10PConfTable,
respectively.
Entries in this table MUST be maintained in a persistent
manner."::={ efmCuPme 1}
efmCuPmeConfEntry OBJECT-TYPESYNTAX EfmCuPmeConfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu PME Configuration table.
Each entry represents common aspects of an EFMCu PME port
indexed by the ifIndex. Note that an EFMCu PME port can be
stacked below a single PCS port, also indexed by ifIndex,
possibly together with other PME ports if PAF is enabled."INDEX{ifIndex}::={ efmCuPmeConfTable 1}
EfmCuPmeConfEntry ::=SEQUENCE{
efmCuPmeAdminSubType INTEGER,
efmCuPmeAdminProfile EfmProfileIndexOrZero,
efmCuPAFRemoteDiscoveryCode PhysAddress,
efmCuPmeThreshLineAtn Integer32,
efmCuPmeThreshSnrMgn Integer32,
efmCuPmeLineAtnCrossingEnable TruthValue,
efmCuPmeSnrMgnCrossingEnable TruthValue,
efmCuPmeDeviceFaultEnable TruthValue,
efmCuPmeConfigInitFailEnable TruthValue,
efmCuPmeProtocolInitFailEnable TruthValue}
efmCuPmeAdminSubType OBJECT-TYPESYNTAXINTEGER{
ieee2BaseTLO(1),
ieee2BaseTLR(2),
ieee10PassTSO(3),
ieee10PassTSR(4),
ieee2BaseTLor10PassTSR(5),
ieee2BaseTLor10PassTSO(6),
ieee10PassTSor2BaseTLO(7)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Administrative (desired) subtype of the PME.
Possible values are:
ieee2BaseTLO - PME SHALL operate as 2BaseTL-O
ieee2BaseTLR - PME SHALL operate as 2BaseTL-R
ieee10PassTSO - PME SHALL operate as 10PassTS-O
ieee10PassTSR - PME SHALL operate as 10PassTS-R
ieee2BaseTLor10PassTSR - PME SHALL operate as 2BaseTL-R or
10PassTS-R. The actual value will
be set by the -O link partner
during initialization (handshake).
ieee2BaseTLor10PassTSO - PME SHALL operate as 2BaseTL-O
(preferred) or 10PassTS-O. The
actual value will be set during
initialization depending on the -R
link partner capability (i.e., if
-R is incapable of the preferred
2BaseTL mode, 10PassTS will be
used).
ieee10PassTSor2BaseTLO - PME SHALL operate as 10PassTS-O
(preferred) or 2BaseTL-O. The
actual value will be set during
initialization depending on the -R
link partner capability (i.e., if
-R is incapable of the preferred
10PassTS mode, 2BaseTL will be
used).
Changing efmCuPmeAdminSubType is a traffic-disruptive
operation and as such SHALL be done when the link is Down.
Attempts to change this object SHALL be rejected if the link
is Up or Initializing.
Attempts to change this object to an unsupported subtype
(see efmCuPmeSubTypesSupported) SHALL be rejected.
The current operational subtype is indicated by the
efmCuPmeOperSubType variable.
If a Clause 45 MDIO Interface to the PMA/PMD is present, then
this object combines values of the Port subtype select bits
and the PMA/PMD type selection bits in the 10P/2B PMA/PMD
control register."REFERENCE"[802.3ah] 61.1, 45.2.1.11.4, 45.2.1.11.7"::={ efmCuPmeConfEntry 1}
efmCuPmeAdminProfile OBJECT-TYPESYNTAX EfmProfileIndexOrZero
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Desired PME configuration profile. This object is a pointer
to an entry in either the efmCuPme2BProfileTable or the
efmCuPme10PProfileTable, depending on the current operating
SubType of the PME. The value of this object is the index of
the referenced profile.
The value of zero (default) indicates that the PME is
configured via the efmCuAdminProfile object for the PCS port
to which this PME is assigned. That is, the profile
referenced by efmCuPmeAdminProfile takes precedence
over the profile(s) referenced by efmCuAdminProfile.
This object is writable and readable for the CO subtype PMEs
(2BaseTL-O or 10PassTS-O). It is irrelevant for the CPE
subtype (2BaseTL-R or 10PassTS-R) -- a zero value SHALL be
returned on an attempt to read this object and any attempt
to change this object MUST be rejected in this case.
Note that the current operational profile value is available
via efmCuPmeOperProfile object.
Any modification of this object MUST be performed when the
link is Down. Attempts to change this object MUST be
rejected, if the link is Up or Initializing.
Attempts to set this object to a value that is not the value
of the index for an active entry in the corresponding profile
table MUST be rejected.
This object maps to the Clause 30 attribute aProfileSelect.
This object MUST be maintained in a persistent manner."REFERENCE"[802.3ah] 30.11.2.1.6"DEFVAL{0}::={ efmCuPmeConfEntry 2}
efmCuPAFRemoteDiscoveryCode OBJECT-TYPESYNTAXPhysAddress(SIZE(0|6))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"PAF Remote Discovery Code of the PME port at the CO.
The 6-octet Discovery Code of the peer PCS connected via
the PME.
Reading this object results in a Discovery Get operation.
Setting this object to all zeroes results in a Discovery
Clear_if_Same operation (the value of efmCuPAFDiscoveryCode
at the peer PCS SHALL be the same as efmCuPAFDiscoveryCode of
the local PCS associated with the PME for the operation to
succeed).
Writing a non-zero value to this object results in a
Discovery Set_if_Clear operation.
A zero-length octet string SHALL be returned on an attempt to
read this object when PAF aggregation is not enabled.
This object is irrelevant in CPE port (-R) subtypes: in this
case, a zero-length octet string SHALL be returned on an
attempt to read this object; writing to this object SHALL
be rejected.
Discovery MUST be performed when the link is Down.
Attempts to change this object MUST be rejected (in case of
SNMP with the error inconsistentValue), if the link is Up or
Initializing.
If a Clause 45 MDIO Interface to the PMA/PMD is present, then
this object is a function of 10P/2B aggregation discovery
control register, Discovery operation result bits in 10P/2B
aggregation and discovery status register and
10P/2B aggregation discovery code register."REFERENCE"[802.3ah] 61.2.2.8.4, 45.2.6.6-45.2.6.8"::={ efmCuPmeConfEntry 3}
efmCuPmeThreshLineAtn OBJECT-TYPESYNTAXInteger32(-127..128)UNITS"dB"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Desired Line Attenuation threshold for the 2B/10P PME.
This object configures the line attenuation alarm threshold.
When the current value of Line Attenuation reaches or
exceeds this threshold, an efmCuPmeLineAtnCrossing
notification MAY be generated, if enabled by
efmCuPmeLineAtnCrossingEnable.
This object is writable for the CO subtype PMEs (-O).
It is read-only for the CPE subtype (-R).
Changing of the Line Attenuation threshold MUST be performed
when the link is Down. Attempts to change this object MUST be
rejected (in case of SNMP with the error inconsistentValue),
if the link is Up or Initializing.
If a Clause 45 MDIO Interface to the PME is present, then this
object maps to the loop attenuation threshold bits in
the 2B PMD line quality thresholds register."REFERENCE"[802.3ah] 45.2.1.36"::={ efmCuPmeConfEntry 4}
efmCuPmeThreshSnrMgn OBJECT-TYPESYNTAXInteger32(-127..128)UNITS"dB"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Desired SNR margin threshold for the 2B/10P PME.
This object configures the SNR margin alarm threshold.
When the current value of SNR margin reaches or exceeds this
threshold, an efmCuPmeSnrMgnCrossing notification MAY be
generated, if enabled by efmCuPmeSnrMgnCrossingEnable.
This object is writable for the CO subtype PMEs
(2BaseTL-O/10PassTS-O). It is read-only for the CPE subtype
(2BaseTL-R/10PassTS-R).
Changing of the SNR margin threshold MUST be performed when
the link is Down. Attempts to change this object MUST be
rejected (in case of SNMP with the error inconsistentValue),
if the link is Up or Initializing.
If a Clause 45 MDIO Interface to the PME is present, then this
object maps to the SNR margin threshold bits in the 2B PMD
line quality thresholds register."REFERENCE"[802.3ah] 45.2.1.36"::={ efmCuPmeConfEntry 5}
efmCuPmeLineAtnCrossingEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates whether efmCuPmeLineAtnCrossing notifications
should be generated for this interface.
A value of true(1) indicates that efmCuPmeLineAtnCrossing
notification is enabled. A value of false(2) indicates that
the notification is disabled."::={ efmCuPmeConfEntry 6}
efmCuPmeSnrMgnCrossingEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates whether efmCuPmeSnrMgnCrossing notifications
should be generated for this interface.
A value of true(1) indicates that efmCuPmeSnrMgnCrossing
notification is enabled. A value of false(2) indicates that
the notification is disabled."::={ efmCuPmeConfEntry 7}
efmCuPmeDeviceFaultEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates whether efmCuPmeDeviceFault notifications
should be generated for this interface.
A value of true(1) indicates that efmCuPmeDeviceFault
notification is enabled. A value of false(2) indicates that
the notification is disabled."::={ efmCuPmeConfEntry 8}
efmCuPmeConfigInitFailEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates whether efmCuPmeConfigInitFailure notifications
should be generated for this interface.
A value of true(1) indicates that efmCuPmeConfigInitFailure
notification is enabled. A value of false(2) indicates that
the notification is disabled."::={ efmCuPmeConfEntry 9}
efmCuPmeProtocolInitFailEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Indicates whether efmCuPmeProtocolInitFailure notifications
should be generated for this interface.
A value of true(1) indicates that efmCuPmeProtocolInitFailure
notification is enabled. A value of false(2) indicates that
the notification is disabled."::={ efmCuPmeConfEntry 10}
efmCuPmeCapabilityTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPmeCapabilityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Table for the configuration of common aspects for EFMCu
2BASE-TL/10PASS-TS PME ports (modems). The configuration of
aspects specific to 2BASE-TL or 10PASS-TS PME types is
represented in the efmCuPme2BConfTable and the
efmCuPme10PConfTable, respectively.
Entries in this table MUST be maintained in a persistent
manner."::={ efmCuPme 2}
efmCuPmeCapabilityEntry OBJECT-TYPESYNTAX EfmCuPmeCapabilityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu PME Capability table.
Each entry represents common aspects of an EFMCu PME port
indexed by the ifIndex. Note that an EFMCu PME port can be
stacked below a single PCS port, also indexed by ifIndex,
possibly together with other PME ports if PAF is enabled."INDEX{ifIndex}::={ efmCuPmeCapabilityTable 1}
EfmCuPmeCapabilityEntry ::=SEQUENCE{
efmCuPmeSubTypesSupported BITS}
efmCuPmeSubTypesSupported OBJECT-TYPESYNTAXBITS{
ieee2BaseTLO(0),
ieee2BaseTLR(1),
ieee10PassTSO(2),
ieee10PassTSR(3)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"PME supported subtypes. This is a bitmap of possible
subtypes. The various bit positions are:
ieee2BaseTLO - PME is capable of operating as 2BaseTL-O
ieee2BaseTLR - PME is capable of operating as 2BaseTL-R
ieee10PassTSO - PME is capable of operating as 10PassTS-O
ieee10PassTSR - PME is capable of operating as 10PassTS-R
The desired mode of operation is determined by
efmCuPmeAdminSubType, while efmCuPmeOperSubType reflects the
current operating mode.
If a Clause 45 MDIO Interface to the PCS is present, then this
object combines the 10PASS-TS capable and 2BASE-TL capable
bits in the 10P/2B PMA/PMD speed ability register and the
CO supported and CPE supported bits in the 10P/2B PMA/PMD
status register."REFERENCE"[802.3ah] 61.1, 45.2.1.4.1, 45.2.1.4.2, 45.2.1.12.2,
45.2.1.12.3"::={ efmCuPmeCapabilityEntry 1}
efmCuPmeStatusTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPmeStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table provides common status information of EFMCu
2BASE-TL/10PASS-TS PME ports. Status information specific
to 10PASS-TS PME is represented in efmCuPme10PStatusTable.
This table contains live data from the equipment. As such,
it is NOT persistent."::={ efmCuPme 3}
efmCuPmeStatusEntry OBJECT-TYPESYNTAX EfmCuPmeStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu PME Status table.
Each entry represents common aspects of an EFMCu PME port
indexed by the ifIndex. Note that an EFMCu PME port can be
stacked below a single PCS port, also indexed by ifIndex,
possibly together with other PME ports if PAF is enabled."INDEX{ifIndex}::={ efmCuPmeStatusTable 1}
EfmCuPmeStatusEntry ::=SEQUENCE{
efmCuPmeOperStatus INTEGER,
efmCuPmeFltStatus BITS,
efmCuPmeOperSubType INTEGER,
efmCuPmeOperProfile EfmProfileIndexOrZero,
efmCuPmeSnrMgn Integer32,
efmCuPmePeerSnrMgn Integer32,
efmCuPmeLineAtn Integer32,
efmCuPmePeerLineAtn Integer32,
efmCuPmeEquivalentLength Unsigned32,
efmCuPmeTCCodingErrors Counter32,
efmCuPmeTCCrcErrors Counter32}
efmCuPmeOperStatus OBJECT-TYPESYNTAXINTEGER{
up(1),
downNotReady(2),
downReady(3),
init(4)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Current PME link Operational Status. Possible values are:
up(1) - The link is Up and ready to pass
64/65-octet encoded frames or fragments.
downNotReady(2) - The link is Down and the PME does not
detect Handshake tones from its peer.
This value may indicate a possible
problem with the peer PME.
downReady(3) - The link is Down and the PME detects
Handshake tones from its peer.
init(4) - The link is Initializing, as a result of
ifAdminStatus being set to 'up' for a
particular PME or a PCS to which the PME
is connected.
This object is intended to supplement the Down(2) state of
ifOperStatus.
This object partially maps to the Clause 30 attribute
aPMEStatus.
If a Clause 45 MDIO Interface to the PME is present, then this
object partially maps to PMA/PMD link status bits in 10P/2B
PMA/PMD status register."REFERENCE"[802.3ah] 30.11.2.1.3, 45.2.1.12.4"::={ efmCuPmeStatusEntry 1}
efmCuPmeFltStatus OBJECT-TYPESYNTAXBITS{
lossOfFraming(0),
snrMgnDefect(1),
lineAtnDefect(2),
deviceFault(3),
configInitFailure(4),
protocolInitFailure(5)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Current/Last PME link Fault Status. This is a bitmap of
possible conditions. The various bit positions are:
lossOfFraming - Loss of Framing for 10P or
Loss of Sync word for 2B PMD or
Loss of 64/65-octet framing.
snrMgnDefect - SNR margin dropped below the
threshold.
lineAtnDefect - Line Attenuation exceeds the
threshold.
deviceFault - Indicates a vendor-dependent
diagnostic or self-test fault
has been detected.
configInitFailure - Configuration initialization failure,
due to inability of the PME link to
support the configuration profile,
requested during initialization.
protocolInitFailure - Protocol initialization failure, due
to an incompatible protocol used by
the peer PME during init (that could
happen if a peer PMD is a regular
G.SDHSL/VDSL modem instead of a
2BASE-TL/10PASS-TS PME).
This object is intended to supplement ifOperStatus in IF-MIB.
This object holds information about the last fault.
efmCuPmeFltStatus is cleared by the device restart.
In addition, lossOfFraming, configInitFailure, and
protocolInitFailure are cleared by PME init;
deviceFault is cleared by successful diagnostics/test;
snrMgnDefect and lineAtnDefect are cleared by SNR margin
and Line attenuation, respectively, returning to norm and by
PME init.
This object partially maps to the Clause 30 attribute
aPMEStatus.
If a Clause 45 MDIO Interface to the PME is present, then this
object consolidates information from various PMA/PMD
registers, namely: Fault bit in PMA/PMD status 1 register,
10P/2B PMA/PMD link loss register,
10P outgoing indicator bits status register,
10P incoming indicator bits status register,
2B state defects register."REFERENCE"[802.3ah] 30.11.2.1.3, 45.2.1.2.1, 45.2.1.38,
45.2.1.39, 45.2.1.54"::={ efmCuPmeStatusEntry 2}
efmCuPmeOperSubType OBJECT-TYPESYNTAXINTEGER{
ieee2BaseTLO(1),
ieee2BaseTLR(2),
ieee10PassTSO(3),
ieee10PassTSR(4)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Current operational subtype of the PME.
Possible values are:
ieee2BaseTLO - PME operates as 2BaseTL-O
ieee2BaseTLR - PME operates as 2BaseTL-R
ieee10PassTSO - PME operates as 10PassTS-O
ieee10PassTSR - PME operates as 10PassTS-R
The desired operational subtype of the PME can be configured
via the efmCuPmeAdminSubType variable.
If a Clause 45 MDIO Interface to the PMA/PMD is present, then
this object combines values of the Port subtype select
bits, the PMA/PMD type selection bits in the 10P/2B
PMA/PMD control register, and the PMA/PMD link status bits in
the 10P/2B PMA/PMD status register."REFERENCE"[802.3ah] 61.1, 45.2.1.11.4, 45.2.1.11.7, 45.2.1.12.4"::={ efmCuPmeStatusEntry 3}
efmCuPmeOperProfile OBJECT-TYPESYNTAX EfmProfileIndexOrZero
MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"PME current operating profile. This object is a pointer to
an entry in either the efmCuPme2BProfileTable or the
efmCuPme10PProfileTable, depending on the current operating
SubType of the PME as indicated by efmCuPmeOperSubType.
Note that a profile entry to which efmCuPmeOperProfile is
pointing can be created automatically to reflect achieved
parameters in adaptive (not fixed) initialization,
i.e., values of efmCuPmeOperProfile and efmCuAdminProfile or
efmCuPmeAdminProfile may differ.
The value of zero indicates that the PME is Down or
Initializing.
This object partially maps to the aOperatingProfile attribute
in Clause 30."REFERENCE"[802.3ah] 30.11.2.1.7"::={ efmCuPmeStatusEntry 4}
efmCuPmeSnrMgn OBJECT-TYPESYNTAXInteger32(-127..128|65535)UNITS"dB"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The current Signal to Noise Ratio (SNR) margin with respect
to the received signal as perceived by the local PME.
The value of 65535 is returned when the PME is Down or
Initializing.
This object maps to the aPMESNRMgn attribute in Clause 30.
If a Clause 45 MDIO Interface is present, then this
object maps to the 10P/2B RX SNR margin register."REFERENCE"[802.3ah] 30.11.2.1.4, 45.2.1.16"::={ efmCuPmeStatusEntry 5}
efmCuPmePeerSnrMgn OBJECT-TYPESYNTAXInteger32(-127..128|65535)UNITS"dB"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The current SNR margin in dB with respect to the received
signal, as perceived by the remote (link partner) PME.
The value of 65535 is returned when the PME is Down or
Initializing.
This object is irrelevant for the -R PME subtypes. The value
of 65535 SHALL be returned in this case.
If a Clause 45 MDIO Interface is present, then this
object maps to the 10P/2B link partner RX SNR margin
register."REFERENCE"[802.3ah] 45.2.1.17"::={ efmCuPmeStatusEntry 6}
efmCuPmeLineAtn OBJECT-TYPESYNTAXInteger32(-127..128|65535)UNITS"dB"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The current Line Attenuation in dB as perceived by the local
PME.
The value of 65535 is returned when the PME is Down or
Initializing.
If a Clause 45 MDIO Interface is present, then this
object maps to the Line Attenuation register."REFERENCE"[802.3ah] 45.2.1.18"::={ efmCuPmeStatusEntry 7}
efmCuPmePeerLineAtn OBJECT-TYPESYNTAXInteger32(-127..128|65535)UNITS"dB"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The current Line Attenuation in dB as perceived by the remote
(link partner) PME.
The value of 65535 is returned when the PME is Down or
Initializing.
This object is irrelevant for the -R PME subtypes. The value
of 65535 SHALL be returned in this case.
If a Clause 45 MDIO Interface is present, then this
object maps to the 20P/2B link partner Line Attenuation
register."REFERENCE"[802.3ah] 45.2.1.19"::={ efmCuPmeStatusEntry 8}
efmCuPmeEquivalentLength OBJECT-TYPESYNTAX Unsigned32(0..8192|65535)UNITS"m"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"An estimate of the equivalent loop's physical length in
meters, as perceived by the PME after the link is established.
An equivalent loop is a hypothetical 26AWG (0.4mm) loop with a
perfect square root attenuation characteristic, without any
bridged taps.
The value of 65535 is returned if the link is Down or
Initializing or the PME is unable to estimate the equivalent
length.
For a 10BASE-TL PME, if a Clause 45 MDIO Interface to the PME
is present, then this object maps to the 10P Electrical Length
register."REFERENCE"[802.3ah] 45.2.1.21"::={ efmCuPmeStatusEntry 9}
efmCuPmeTCCodingErrors OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of 64/65-octet encapsulation errors. This counter
is incremented for each 64/65-octet encapsulation error
detected by the 64/65-octet receive function.
This object maps to aTCCodingViolations attribute in
Clause 30.
If a Clause 45 MDIO Interface to the PME TC is present, then
this object maps to the TC coding violations register
(see 45.2.6.12).
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 61.3.3.1, 30.11.2.1.5, 45.2.6.12"::={ efmCuPmeStatusEntry 10}
efmCuPmeTCCrcErrors OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of TC-CRC errors. This counter is incremented for
each TC-CRC error detected by the 64/65-octet receive function
(see 61.3.3.3 and Figure 61-19).
This object maps to aTCCRCErrors attribute in
Clause 30.
If a Clause 45 MDIO Interface to the PME TC is present, then
this object maps to the TC CRC error register
(see 45.2.6.11).
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 61.3.3.3, 30.11.2.1.10, 45.2.6.11"::={ efmCuPmeStatusEntry 11}-- 2BASE-TL specific PME group
efmCuPme2B OBJECTIDENTIFIER::={ efmCuPme 5}
efmCuPme2BProfileTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPme2BProfileEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table supports definitions of administrative and
operating profiles for 2BASE-TL PMEs.
The first 14 entries in this table SHALL always be defined as
follows (see 802.3ah Annex 63A):
-------+-------+-------+-----+------+-------------+-----------
Profile MinRate MaxRate Power Region Constellation Comment
index (Kbps) (Kbps) (dBm)
-------+-------+-------+-----+------+-------------+-----------
1 5696 5696 13.5 1 32-TCPAM default
2 3072 3072 13.5 1 32-TCPAM
3 2048 2048 13.5 1 16-TCPAM
4 1024 1024 13.5 1 16-TCPAM
5 704 704 13.5 1 16-TCPAM
6 512 512 13.5 1 16-TCPAM
7 5696 5696 14.5 2 32-TCPAM
8 3072 3072 14.5 2 32-TCPAM
9 2048 2048 14.5 2 16-TCPAM
10 1024 1024 13.5 2 16-TCPAM
11 704 704 13.5 2 16-TCPAM
12 512 512 13.5 2 16-TCPAM
13 192 5696 0 1 0 best effort
14 192 5696 0 2 0 best effort
-------+-------+-------+-----+------+-------------+-----------
These default entries SHALL be created during agent
initialization and MUST NOT be deleted.
Entries following the first 14 can be dynamically created and
deleted to provide custom administrative (configuration)
profiles and automatic operating profiles.
This table MUST be maintained in a persistent manner."REFERENCE"[802.3ah] Annex 63A, 30.11.2.1.6"::={ efmCuPme2B 2}
efmCuPme2BProfileEntry OBJECT-TYPESYNTAX EfmCuPme2BProfileEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry corresponds to a single 2BASE-TL PME profile.
Each profile contains a set of parameters, used either for
configuration or representation of a 2BASE-TL PME.
In case a particular profile is referenced via the
efmCuPmeAdminProfile object (or efmCuAdminProfile if
efmCuPmeAdminProfile is zero), it represents the desired
parameters for the 2BaseTL-O PME initialization.
If a profile is referenced via an efmCuPmeOperProfile object,
it represents the current operating parameters of an
operational PME.
Profiles may be created/deleted using the row creation/
deletion mechanism via efmCuPme2BProfileRowStatus. If an
active entry is referenced, the entry MUST remain 'active'
until all references are removed.
Default entries MUST NOT be removed."INDEX{ efmCuPme2BProfileIndex }::={ efmCuPme2BProfileTable 1}
EfmCuPme2BProfileEntry ::=SEQUENCE{
efmCuPme2BProfileIndex EfmProfileIndex,
efmCuPme2BProfileDescr SnmpAdminString,
efmCuPme2BRegion INTEGER,
efmCuPme2BsMode EfmProfileIndexOrZero,
efmCuPme2BMinDataRate Unsigned32,
efmCuPme2BMaxDataRate Unsigned32,
efmCuPme2BPower Unsigned32,
efmCuPme2BConstellation INTEGER,
efmCuPme2BProfileRowStatus RowStatus}
efmCuPme2BProfileIndex OBJECT-TYPESYNTAX EfmProfileIndex
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"2BASE-TL PME profile index.
This object is the unique index associated with this profile.
Entries in this table are referenced via efmCuAdminProfile or
efmCuPmeAdminProfile objects."::={ efmCuPme2BProfileEntry 1}
efmCuPme2BProfileDescr OBJECT-TYPESYNTAX SnmpAdminString
MAX-ACCESSread-createSTATUScurrentDESCRIPTION"A textual string containing information about a 2BASE-TL PME
profile. The string may include information about the data
rate and spectral limitations of this particular profile."::={ efmCuPme2BProfileEntry 2}
efmCuPme2BRegion OBJECT-TYPESYNTAXINTEGER{
region1(1),
region2(2)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Regional settings for a 2BASE-TL PME, as specified in the
relevant Regional Annex of [G.991.2].
Regional settings specify the Power Spectral Density (PSD)
mask and the Power Back-Off (PBO) values, and place
limitations on the max allowed data rate, power, and
constellation.
Possible values for this object are:
region1 - Annexes A and F (e.g., North America)
region2 - Annexes B and G (e.g., Europe)
Annex A/B specify regional settings for data rates 192-2304
Kbps using 16-TCPAM encoding.
Annex F/G specify regional settings for rates 2320-3840 Kbps
using 16-TCPAM encoding and 768-5696 Kbps using 32-TCPAM
encoding.
If a Clause 45 MDIO Interface to the PME is present, then this
object partially maps to the Region bits in the 2B general
parameter register."REFERENCE"[802.3ah] 45.2.1.42; [G.991.2] Annexes A, B, F and G"::={ efmCuPme2BProfileEntry 3}
efmCuPme2BsMode OBJECT-TYPESYNTAX EfmProfileIndexOrZero
MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Desired custom Spectral Mode for a 2BASE-TL PME. This object
is a pointer to an entry in efmCuPme2BsModeTable and a block
of entries in efmCuPme2BRateReachTable, which together define
(country-specific) reach-dependent rate limitations in
addition to those defined by efmCuPme2BRegion.
The value of this object is the index of the referenced
spectral mode.
The value of zero (default) indicates that no specific
spectral mode is applicable.
Attempts to set this object to a value that is not the value
of the index for an active entry in the corresponding spectral
mode table MUST be rejected."REFERENCE"efmCuPme2BsModeTable, efmCuPme2BRateReachTable"DEFVAL{0}::={ efmCuPme2BProfileEntry 4}
efmCuPme2BMinDataRate OBJECT-TYPESYNTAX Unsigned32(192..5696)UNITS"Kbps"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Minimum Data Rate for the 2BASE-TL PME.
This object can take values of (n x 64)Kbps,
where n=3..60 for 16-TCPAM and n=12..89 for 32-TCPAM encoding.
The data rate of the 2BASE-TL PME is considered 'fixed' when
the value of this object equals that of efmCuPme2BMaxDataRate.
If efmCuPme2BMinDataRate is less than efmCuPme2BMaxDataRate in
the administrative profile, the data rate is considered
'adaptive', and SHALL be set to the maximum attainable rate
not exceeding efmCuPme2BMaxDataRate, under the spectral
limitations placed by the efmCuPme2BRegion and
efmCuPme2BsMode.
Note that the current operational data rate of the PME is
represented by the ifSpeed object of IF-MIB.
If a Clause 45 MDIO Interface to the PME is present, then this
object maps to the Min Data Rate1 bits in the 2B PMD
parameters register.
This object MUST be maintained in a persistent manner."REFERENCE"[802.3ah] 45.2.1.43"::={ efmCuPme2BProfileEntry 5}
efmCuPme2BMaxDataRate OBJECT-TYPESYNTAX Unsigned32(192..5696)UNITS"Kbps"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Maximum Data Rate for the 2BASE-TL PME.
This object can take values of (n x 64)Kbps,
where n=3..60 for 16-TCPAM and n=12..89 for 32-TCPAM encoding.
The data rate of the 2BASE-TL PME is considered 'fixed' when
the value of this object equals that of efmCuPme2BMinDataRate.
If efmCuPme2BMinDataRate is less than efmCuPme2BMaxDataRate in
the administrative profile, the data rate is considered
'adaptive', and SHALL be set to the maximum attainable rate
not exceeding efmCuPme2BMaxDataRate, under the spectral
limitations placed by the efmCuPme2BRegion and
efmCuPme2BsMode.
Note that the current operational data rate of the PME is
represented by the ifSpeed object of IF-MIB.
If a Clause 45 MDIO Interface to the PME is present, then this
object maps to the Max Data Rate1 bits in the 2B PMD
parameters register.
This object MUST be maintained in a persistent manner."REFERENCE"[802.3ah] 45.2.1.43"::={ efmCuPme2BProfileEntry 6}
efmCuPme2BPower OBJECT-TYPESYNTAX Unsigned32(0|10..42)UNITS"0.5 dBm"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Signal Transmit Power. Multiple of 0.5 dBm.
The value of 0 in the administrative profile means that the
signal transmit power is not fixed and SHALL be set to
maximize the attainable rate, under the spectral limitations
placed by the efmCuPme2BRegion and efmCuPme2BsMode.
If a Clause 45 MDIO Interface to the PME is present, then this
object maps to the Power1 bits in the 2B PMD parameters
register."REFERENCE"[802.3ah] 45.2.1.43"::={ efmCuPme2BProfileEntry 7}
efmCuPme2BConstellation OBJECT-TYPESYNTAXINTEGER{
adaptive(0),
tcpam16(1),
tcpam32(2)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"TCPAM Constellation of the 2BASE-TL PME.
The possible values are:
adaptive(0) - either 16- or 32-TCPAM
tcpam16(1) - 16-TCPAM
tcpam32(2) - 32-TCPAM
The value of adaptive(0) in the administrative profile means
that the constellation is not fixed and SHALL be set to
maximize the attainable rate, under the spectral limitations
placed by the efmCuPme2BRegion and efmCuPme2BsMode.
If a Clause 45 MDIO Interface to the PME is present, then this
object maps to the Constellation1 bits in the 2B general
parameter register."REFERENCE"[802.3ah] 45.2.1.43"::={ efmCuPme2BProfileEntry 8}
efmCuPme2BProfileRowStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION"This object controls the creation, modification, or deletion
of the associated entry in the efmCuPme2BProfileTable per the
semantics of RowStatus.
If an 'active' entry is referenced via efmCuAdminProfile or
efmCuPmeAdminProfile instance(s), the entry MUST remain
'active'.
An 'active' entry SHALL NOT be modified. In order to modify
an existing entry, it MUST be taken out of service (by setting
this object to 'notInService'), modified, and set 'active'
again."::={ efmCuPme2BProfileEntry 9}
efmCuPme2BsModeTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPme2BsModeEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table, together with efmCu2BReachRateTable, supports
definition of administrative custom spectral modes for
2BASE-TL PMEs, describing spectral limitations in addition to
those specified by efmCuPme2BRegion.
In some countries, spectral regulations (e.g., UK ANFP) limit
the length of the loops for certain data rates. This table
allows these country-specific limitations to be specified.
Entries in this table referenced by the efmCuPme2BsMode
MUST NOT be deleted until all the active references are
removed.
This table MUST be maintained in a persistent manner."REFERENCE"efmCu2BReachRateTable"::={ efmCuPme2B 3}
efmCuPme2BsModeEntry OBJECT-TYPESYNTAX EfmCuPme2BsModeEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies a spectral mode description and its
index, which is used to reference corresponding entries in the
efmCu2BReachRateTable.
Entries may be created/deleted using the row creation/
deletion mechanism via efmCuPme2BsModeRowStatus."INDEX{ efmCuPme2BsModeIndex }::={ efmCuPme2BsModeTable 1}
EfmCuPme2BsModeEntry ::=SEQUENCE{
efmCuPme2BsModeIndex EfmProfileIndex,
efmCuPme2BsModeDescr SnmpAdminString,
efmCuPme2BsModeRowStatus RowStatus}
efmCuPme2BsModeIndex OBJECT-TYPESYNTAX EfmProfileIndex
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"2BASE-TL PME Spectral Mode index.
This object is the unique index associated with this spectral
mode.
Entries in this table are referenced via the efmCuPme2BsMode
object."::={ efmCuPme2BsModeEntry 1}
efmCuPme2BsModeDescr OBJECT-TYPESYNTAX SnmpAdminString
MAX-ACCESSread-createSTATUScurrentDESCRIPTION"A textual string containing information about a 2BASE-TL PME
spectral mode. The string may include information about
corresponding (country-specific) spectral regulations
and rate/reach limitations of this particular spectral mode."::={ efmCuPme2BsModeEntry 2}
efmCuPme2BsModeRowStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION"This object controls creation, modification, or deletion of
the associated entry in efmCuPme2BsModeTable per the semantics
of RowStatus.
If an 'active' entry is referenced via efmCuPme2BsMode
instance(s), the entry MUST remain 'active'.
An 'active' entry SHALL NOT be modified. In order to modify
an existing entry, it MUST be taken out of service (by setting
this object to 'notInService'), modified, and set 'active'
again."::={ efmCuPme2BsModeEntry 3}
efmCuPme2BReachRateTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPme2BReachRateEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table supports the definition of administrative custom
spectral modes for 2BASE-TL PMEs, providing spectral
limitations in addition to those specified by
efmCuPme2BRegion.
The spectral regulations in some countries (e.g., UK ANFP)
limit the length of the loops for certain data rates.
This table allows these country-specific limitations to be
specified.
Below is an example of this table for [ANFP]:
----------+-------+-------
Equivalent MaxRate MaxRate
Length PAM16 PAM32
(m) (Kbps) (Kbps)
----------+-------+-------
975 2304 5696
1125 2304 5504
1275 2304 5120
1350 2304 4864
1425 2304 4544
1500 2304 4288
1575 2304 3968
1650 2304 3776
1725 2304 3520
1800 2304 3264
1875 2304 3072
1950 2048 2688
2100 1792 2368
2250 1536 0
2400 1408 0
2550 1280 0
2775 1152 0
2925 1152 0
3150 1088 0
3375 1024 0
----------+-------+-------
Entries in this table referenced by an efmCuPme2BsMode
instance MUST NOT be deleted.
This table MUST be maintained in a persistent manner."REFERENCE"[ANFP]"::={ efmCuPme2B 4}
efmCuPme2BReachRateEntry OBJECT-TYPESYNTAX EfmCuPme2BReachRateEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies maximum 2BASE-TL PME data rates
allowed for a certain equivalent loop length, when using
16-TCPAM or 32-TCPAM encoding.
When a 2BASE-TL PME is initialized, its data rate MUST NOT
exceed one of the following limitations:
- the value of efmCuPme2BMaxDataRate
- maximum data rate allowed by efmCuPme2BRegion and
efmCuPme2BPower
- maximum data rate for a given encoding specified in the
efmCuPme2BsModeEntry, corresponding to the equivalent loop
length, estimated by the PME
It is RECOMMENDED that the efmCuPme2BEquivalentLength values
are assigned in increasing order, starting from the minimum
value.
Entries may be created/deleted using the row creation/
deletion mechanism via efmCuPme2ReachRateRowStatus."INDEX{ efmCuPme2BsModeIndex, efmCuPme2BReachRateIndex }::={ efmCuPme2BReachRateTable 1}
EfmCuPme2BReachRateEntry ::=SEQUENCE{
efmCuPme2BReachRateIndex EfmProfileIndex,
efmCuPme2BEquivalentLength Unsigned32,
efmCuPme2BMaxDataRatePam16 Unsigned32,
efmCuPme2BMaxDataRatePam32 Unsigned32,
efmCuPme2BReachRateRowStatus RowStatus}
efmCuPme2BReachRateIndex OBJECT-TYPESYNTAX EfmProfileIndex
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"2BASE-TL custom spectral mode Reach-Rate table index.
This object is the unique index associated with each entry."::={ efmCuPme2BReachRateEntry 1}
efmCuPme2BEquivalentLength OBJECT-TYPESYNTAX Unsigned32(0..8192)UNITS"m"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Maximum allowed equivalent loop's physical length in meters
for the specified data rates.
An equivalent loop is a hypothetical 26AWG (0.4mm) loop with a
perfect square root attenuation characteristic, without any
bridged taps."::={ efmCuPme2BReachRateEntry 2}
efmCuPme2BMaxDataRatePam16 OBJECT-TYPESYNTAX Unsigned32(0|192..5696)UNITS"Kbps"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Maximum data rate for a 2BASE-TL PME at the specified
equivalent loop's length using TC-PAM16 encoding.
The value of zero means that TC-PAM16 encoding should not be
used at this distance."::={ efmCuPme2BReachRateEntry 3}
efmCuPme2BMaxDataRatePam32 OBJECT-TYPESYNTAX Unsigned32(0|192..5696)UNITS"Kbps"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Maximum data rate for a 2BASE-TL PME at the specified
equivalent loop's length using TC-PAM32 encoding.
The value of zero means that TC-PAM32 encoding should not be
used at this distance."::={ efmCuPme2BReachRateEntry 4}
efmCuPme2BReachRateRowStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION"This object controls the creation, modification, or deletion
of the associated entry in the efmCuPme2BReachRateTable per
the semantics of RowStatus.
If an 'active' entry is referenced via efmCuPme2BsMode
instance(s), the entry MUST remain 'active'.
An 'active' entry SHALL NOT be modified. In order to modify
an existing entry, it MUST be taken out of service (by setting
this object to 'notInService'), modified, and set 'active'
again."::={ efmCuPme2BReachRateEntry 5}-- 10PASS-TS specific PME group
efmCuPme10P OBJECTIDENTIFIER::={ efmCuPme 6}
efmCuPme10PProfileTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPme10PProfileEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table supports definitions of configuration profiles for
10PASS-TS PMEs.
The first 22 entries in this table SHALL always be defined as
follows (see 802.3ah Annex 62B.3, table 62B-1):
-------+--------+----+---------+-----+-----+---------------
Profile Bandplan UPBO BandNotch DRate URate Comment
Index PSDMask# p# p# p# p#
-------+--------+----+---------+-----+-----+---------------
1 1 3 2,6,10,11 20 20 default profile
2 13 5 0 20 20
3 1 1 0 20 20
4 16 0 0 100 100
5 16 0 0 70 50
6 6 0 0 50 10
7 17 0 0 30 30
8 8 0 0 30 5
9 4 0 0 25 25
10 4 0 0 15 15
11 23 0 0 10 10
12 23 0 0 5 5
13 16 0 2,5,9,11 100 100
14 16 0 2,5,9,11 70 50
15 6 0 2,6,10,11 50 10
16 17 0 2,5,9,11 30 30
17 8 0 2,6,10,11 30 5
18 4 0 2,6,10,11 25 25
19 4 0 2,6,10,11 15 15
20 23 0 2,5,9,11 10 10
21 23 0 2,5,9,11 5 5
22 30 0 0 200 50
-------+--------+----+---------+-----+-----+---------------
These default entries SHALL be created during agent
initialization and MUST NOT be deleted.
Entries following the first 22 can be dynamically created and
deleted to provide custom administrative (configuration)
profiles and automatic operating profiles.
This table MUST be maintained in a persistent manner."REFERENCE"[802.3ah] Annex 62B.3, 30.11.2.1.6"::={ efmCuPme10P 1}
efmCuPme10PProfileEntry OBJECT-TYPESYNTAX EfmCuPme10PProfileEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry corresponds to a single 10PASS-TS PME profile.
Each profile contains a set of parameters, used either for
configuration or representation of a 10PASS-TS PME.
In case a particular profile is referenced via the
efmCuPmeAdminProfile object (or efmCuAdminProfile if
efmCuPmeAdminProfile is zero), it represents the desired
parameters for the 10PassTS-O PME initialization.
If a profile is referenced via an efmCuPmeOperProfile object,
it represents the current operating parameters of the PME.
Profiles may be created/deleted using the row creation/
deletion mechanism via efmCuPme10PProfileRowStatus. If an
'active' entry is referenced, the entry MUST remain 'active'
until all references are removed.
Default entries MUST NOT be removed."INDEX{ efmCuPme10PProfileIndex }::={ efmCuPme10PProfileTable 1}
EfmCuPme10PProfileEntry ::=SEQUENCE{
efmCuPme10PProfileIndex EfmProfileIndex,
efmCuPme10PProfileDescr SnmpAdminString,
efmCuPme10PBandplanPSDMskProfile INTEGER,
efmCuPme10PUPBOReferenceProfile INTEGER,
efmCuPme10PBandNotchProfiles BITS,
efmCuPme10PPayloadDRateProfile INTEGER,
efmCuPme10PPayloadURateProfile INTEGER,
efmCuPme10PProfileRowStatus RowStatus}
efmCuPme10PProfileIndex OBJECT-TYPESYNTAX EfmProfileIndex
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"10PASS-TS PME profile index.
This object is the unique index associated with this profile.
Entries in this table are referenced via efmCuAdminProfile or
efmCuPmeAdminProfile."::={ efmCuPme10PProfileEntry 1}
efmCuPme10PProfileDescr OBJECT-TYPESYNTAX SnmpAdminString
MAX-ACCESSread-createSTATUScurrentDESCRIPTION"A textual string containing information about a 10PASS-TS PME
profile. The string may include information about data rate
and spectral limitations of this particular profile."::={ efmCuPme10PProfileEntry 2}
efmCuPme10PBandplanPSDMskProfile OBJECT-TYPESYNTAXINTEGER{
profile1(1),
profile2(2),
profile3(3),
profile4(4),
profile5(5),
profile6(6),
profile7(7),
profile8(8),
profile9(9),
profile10(10),
profile11(11),
profile12(12),
profile13(13),
profile14(14),
profile15(15),
profile16(16),
profile17(17),
profile18(18),
profile19(19),
profile20(20),
profile21(21),
profile22(22),
profile23(23),
profile24(24),
profile25(25),
profile26(26),
profile27(27),
profile28(28),
profile29(29),
profile30(30)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The 10PASS-TS PME Bandplan and PSD Mask Profile, as specified
in 802.3ah Annex 62A, table 62A-1. Possible values are:
--------------+------------------------+------------+--------
Profile Name PSD Mask Bands G.993.1
0/1/2/3/4/5 Bandplan
--------------+------------------------+------------+--------
profile1(1) T1.424 FTTCab.M1 x/D/U/D/U A
profile2(2) T1.424 FTTEx.M1 x/D/U/D/U A
profile3(3) T1.424 FTTCab.M2 x/D/U/D/U A
profile4(4) T1.424 FTTEx.M2 x/D/U/D/U A
profile5(5) T1.424 FTTCab.M1 D/D/U/D/U A
profile6(6) T1.424 FTTEx.M1 D/D/U/D/U A
profile7(7) T1.424 FTTCab.M2 D/D/U/D/U A
profile8(8) T1.424 FTTEx.M2 D/D/U/D/U A
profile9(9) T1.424 FTTCab.M1 U/D/U/D/x A
profile10(10) T1.424 FTTEx.M1 U/D/U/D/x A
profile11(11) T1.424 FTTCab.M2 U/D/U/D/x A
profile12(12) T1.424 FTTEx.M2 U/D/U/D/x A
profile13(13) TS 101 270-1 Pcab.M1.A x/D/U/D/U B
profile14(14) TS 101 270-1 Pcab.M1.B x/D/U/D/U B
profile15(15) TS 101 270-1 Pex.P1.M1 x/D/U/D/U B
profile16(16) TS 101 270-1 Pex.P2.M1 x/D/U/D/U B
profile17(17) TS 101 270-1 Pcab.M2 x/D/U/D/U B
profile18(18) TS 101 270-1 Pex.P1.M2 x/D/U/D/U B
profile19(19) TS 101 270-1 Pex.P2.M2 x/D/U/D/U B
profile20(20) TS 101 270-1 Pcab.M1.A U/D/U/D/x B
profile21(21) TS 101 270-1 Pcab.M1.B U/D/U/D/x B
profile22(22) TS 101 270-1 Pex.P1.M1 U/D/U/D/x B
profile23(23) TS 101 270-1 Pex.P2.M1 U/D/U/D/x B
profile24(24) TS 101 270-1 Pcab.M2 U/D/U/D/x B
profile25(25) TS 101 270-1 Pex.P1.M2 U/D/U/D/x B
profile26(26) TS 101 270-1 Pex.P2.M2 U/D/U/D/x B
profile27(27) G.993.1 F.1.2.1 x/D/U/D/U Annex F
profile28(28) G.993.1 F.1.2.2 x/D/U/D/U Annex F
profile29(29) G.993.1 F.1.2.3 x/D/U/D/U Annex F
profile30(30) T1.424 FTTCab.M1 (ext.) x/D/U/D/U/D Annex A
--------------+------------------------+------------+--------
"REFERENCE"[802.3ah] Annex 62A"::={ efmCuPme10PProfileEntry 3}
efmCuPme10PUPBOReferenceProfile OBJECT-TYPESYNTAXINTEGER{
profile0(0),
profile1(1),
profile2(2),
profile3(3),
profile4(4),
profile5(5),
profile6(6),
profile7(7),
profile8(8),
profile9(9)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The 10PASS-TS PME Upstream Power Back-Off (UPBO) Reference
PSD Profile, as specified in 802.3 Annex 62A, table 62A-3.
Possible values are:
------------+-----------------------------
Profile Name Reference PSD
------------+-----------------------------
profile0(0) no profile
profile1(1) T1.424 Noise A M1
profile2(2) T1.424 Noise A M2
profile3(3) T1.424 Noise F M1
profile4(4) T1.424 Noise F M2
profile5(5) TS 101 270-1 Noise A&B
profile6(6) TS 101 270-1 Noise C
profile7(7) TS 101 270-1 Noise D
profile8(8) TS 101 270-1 Noise E
profile9(9) TS 101 270-1 Noise F
------------+-----------------------------
"REFERENCE"[802.3ah] Annex 62A.3.5"::={ efmCuPme10PProfileEntry 4}
efmCuPme10PBandNotchProfiles OBJECT-TYPESYNTAXBITS{
profile0(0),
profile1(1),
profile2(2),
profile3(3),
profile4(4),
profile5(5),
profile6(6),
profile7(7),
profile8(8),
profile9(9),
profile10(10),
profile11(11)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The 10PASS-TS PME Egress Control Band Notch Profile bitmap,
as specified in 802.3 Annex 62A, table 62A-4. Possible values
are:
--------------+--------+------+------------+------+------
Profile Name G.991.3 T1.424 TS 101 270-1 StartF EndF
table table table (MHz) (MHz)
--------------+--------+------+------------+------+------
profile0(0) no profile
profile1(1) F-5 #01 - - 1.810 1.825
profile2(2) 6-2 15-1 17 1.810 2.000
profile3(3) F-5 #02 - - 1.907 1.912
profile4(4) F-5 #03 - - 3.500 3.575
profile5(5) 6-2 - 17 3.500 3.800
profile6(6) - 15-1 - 3.500 4.000
profile7(7) F-5 #04 - - 3.747 3.754
profile8(8) F-5 #05 - - 3.791 3.805
profile9(9) 6-2 - 17 7.000 7.100
profile10(10) F-5 #06 15-1 - 7.000 7.300
profile11(11) 6-2 15-1 1 10.100 10.150
--------------+--------+------+------------+------+------
Any combination of profiles can be specified by ORing
individual profiles, for example, a value of 0x2230 selects
profiles 2, 6, 10, and 11."REFERENCE"[802.3ah] Annex 62A.3.5"::={ efmCuPme10PProfileEntry 5}
efmCuPme10PPayloadDRateProfile OBJECT-TYPESYNTAXINTEGER{
profile5(5),
profile10(10),
profile15(15),
profile20(20),
profile25(25),
profile30(30),
profile50(50),
profile70(70),
profile100(100),
profile140(140),
profile200(200)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The 10PASS-TS PME Downstream Payload Rate Profile, as
specified in 802.3 Annex 62A. Possible values are:
profile5(5) - 2.5 Mbps
profile10(10) - 5 Mbps
profile15(15) - 7.5 Mbps
profile20(20) - 10 Mbps
profile25(25) - 12.5 Mbps
profile30(30) - 15 Mbps
profile50(50) - 25 Mbps
profile70(70) - 35 Mbps
profile100(100) - 50 Mbps
profile140(140) - 70 Mbps
profile200(200) - 100 Mbps
Each value represents a target for the PME's Downstream
Payload Bitrate as seen at the MII. If the payload rate of
the selected profile cannot be achieved based on the loop
environment, bandplan, and PSD mask, the PME initialization
SHALL fail."REFERENCE"[802.3ah] Annex 62A.3.6"::={ efmCuPme10PProfileEntry 6}
efmCuPme10PPayloadURateProfile OBJECT-TYPESYNTAXINTEGER{
profile5(5),
profile10(10),
profile15(15),
profile20(20),
profile25(25),
profile30(30),
profile50(50),
profile70(70),
profile100(100)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The 10PASS-TS PME Upstream Payload Rate Profile, as specified
in 802.3 Annex 62A. Possible values are:
profile5(5) - 2.5 Mbps
profile10(10) - 5 Mbps
profile15(15) - 7.5 Mbps
profile20(20) - 10 Mbps
profile25(25) - 12.5 Mbps
profile30(30) - 15 Mbps
profile50(50) - 25 Mbps
profile70(70) - 35 Mbps
profile100(100) - 50 Mbps
Each value represents a target for the PME's Upstream Payload
Bitrate as seen at the MII. If the payload rate of the
selected profile cannot be achieved based on the loop
environment, bandplan, and PSD mask, the PME initialization
SHALL fail."REFERENCE"[802.3ah] Annex 62A.3.6"::={ efmCuPme10PProfileEntry 7}
efmCuPme10PProfileRowStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION"This object controls creation, modification, or deletion of
the associated entry in efmCuPme10PProfileTable per the
semantics of RowStatus.
If an active entry is referenced via efmCuAdminProfile or
efmCuPmeAdminProfile, the entry MUST remain 'active' until
all references are removed.
An 'active' entry SHALL NOT be modified. In order to modify
an existing entry, it MUST be taken out of service (by setting
this object to 'notInService'), modified, and set 'active'
again."::={ efmCuPme10PProfileEntry 8}
efmCuPme10PStatusTable OBJECT-TYPESYNTAXSEQUENCEOF EfmCuPme10PStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table provides status information of EFMCu 10PASS-TS
PMEs (modems).
This table contains live data from the equipment. As such,
it is NOT persistent."::={ efmCuPme10P 2}
efmCuPme10PStatusEntry OBJECT-TYPESYNTAX EfmCuPme10PStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry in the EFMCu 10PASS-TS PME Status table."INDEX{ifIndex}::={ efmCuPme10PStatusTable 1}
EfmCuPme10PStatusEntry ::=SEQUENCE{
efmCuPme10PFECCorrectedBlocks Counter32,
efmCuPme10PFECUncorrectedBlocks Counter32}
efmCuPme10PFECCorrectedBlocks OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of received and corrected Forward Error Correction
(FEC) codewords in this 10PASS-TS PME.
This object maps to the aPMEFECCorrectedBlocks attribute in
Clause 30.
If a Clause 45 MDIO Interface to the PMA/PMD is present,
then this object maps to the 10P FEC correctable errors
register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.1.22, 30.11.2.1.8"::={ efmCuPme10PStatusEntry 1}
efmCuPme10PFECUncorrectedBlocks OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of received uncorrectable FEC codewords in this
10PASS-TS PME.
This object maps to the aPMEFECUncorrectableBlocks attribute
in Clause 30.
If a Clause 45 MDIO Interface to the PMA/PMD is present,
then this object maps to the 10P FEC uncorrectable errors
register.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime,
defined in IF-MIB."REFERENCE"[802.3ah] 45.2.1.23, 30.11.2.1.9"::={ efmCuPme10PStatusEntry 2}---- Conformance Statements--
efmCuGroups OBJECTIDENTIFIER::={ efmCuConformance 1}
efmCuCompliances OBJECTIDENTIFIER::={ efmCuConformance 2}-- Object Groups
efmCuBasicGroup OBJECT-GROUPOBJECTS{
efmCuPAFSupported,
efmCuAdminProfile,
efmCuTargetDataRate,
efmCuTargetSnrMgn,
efmCuAdaptiveSpectra,
efmCuPortSide,
efmCuFltStatus
}STATUScurrentDESCRIPTION"A collection of objects representing management information
common for all types of EFMCu ports."::={ efmCuGroups 1}
efmCuPAFGroup OBJECT-GROUPOBJECTS{
efmCuPeerPAFSupported,
efmCuPAFCapacity,
efmCuPeerPAFCapacity,
efmCuPAFAdminState,
efmCuPAFDiscoveryCode,
efmCuPAFRemoteDiscoveryCode,
efmCuNumPMEs
}STATUScurrentDESCRIPTION"A collection of objects supporting OPTIONAL PME
Aggregation Function (PAF) and PAF discovery in EFMCu ports."::={ efmCuGroups 2}
efmCuPAFErrorsGroup OBJECT-GROUPOBJECTS{
efmCuPAFInErrors,
efmCuPAFInSmallFragments,
efmCuPAFInLargeFragments,
efmCuPAFInBadFragments,
efmCuPAFInLostFragments,
efmCuPAFInLostStarts,
efmCuPAFInLostEnds,
efmCuPAFInOverflows
}STATUScurrentDESCRIPTION"A collection of objects supporting OPTIONAL error counters
of PAF on EFMCu ports."::={ efmCuGroups 3}
efmCuPmeGroup OBJECT-GROUPOBJECTS{
efmCuPmeAdminProfile,
efmCuPmeOperStatus,
efmCuPmeFltStatus,
efmCuPmeSubTypesSupported,
efmCuPmeAdminSubType,
efmCuPmeOperSubType,
efmCuPAFRemoteDiscoveryCode,
efmCuPmeOperProfile,
efmCuPmeSnrMgn,
efmCuPmePeerSnrMgn,
efmCuPmeLineAtn,
efmCuPmePeerLineAtn,
efmCuPmeEquivalentLength,
efmCuPmeTCCodingErrors,
efmCuPmeTCCrcErrors,
efmCuPmeThreshLineAtn,
efmCuPmeThreshSnrMgn
}STATUScurrentDESCRIPTION"A collection of objects providing information about
a 2BASE-TL/10PASS-TS PME."::={ efmCuGroups 4}
efmCuAlarmConfGroup OBJECT-GROUPOBJECTS{
efmCuThreshLowRate,
efmCuLowRateCrossingEnable,
efmCuPmeThreshLineAtn,
efmCuPmeLineAtnCrossingEnable,
efmCuPmeThreshSnrMgn,
efmCuPmeSnrMgnCrossingEnable,
efmCuPmeDeviceFaultEnable,
efmCuPmeConfigInitFailEnable,
efmCuPmeProtocolInitFailEnable
}STATUScurrentDESCRIPTION"A collection of objects supporting configuration of alarm
thresholds and notifications in EFMCu ports."::={ efmCuGroups 5}
efmCuNotificationGroup NOTIFICATION-GROUPNOTIFICATIONS{
efmCuLowRateCrossing,
efmCuPmeLineAtnCrossing,
efmCuPmeSnrMgnCrossing,
efmCuPmeDeviceFault,
efmCuPmeConfigInitFailure,
efmCuPmeProtocolInitFailure
}STATUScurrentDESCRIPTION"This group supports notifications of significant conditions
associated with EFMCu ports."::={ efmCuGroups 6}
efmCuPme2BProfileGroup OBJECT-GROUPOBJECTS{
efmCuPme2BProfileDescr,
efmCuPme2BRegion,
efmCuPme2BsMode,
efmCuPme2BMinDataRate,
efmCuPme2BMaxDataRate,
efmCuPme2BPower,
efmCuPme2BConstellation,
efmCuPme2BProfileRowStatus,
efmCuPme2BsModeDescr,
efmCuPme2BsModeRowStatus,
efmCuPme2BEquivalentLength,
efmCuPme2BMaxDataRatePam16,
efmCuPme2BMaxDataRatePam32,
efmCuPme2BReachRateRowStatus
}STATUScurrentDESCRIPTION"A collection of objects that constitute a configuration
profile for configuration of 2BASE-TL ports."::={ efmCuGroups 7}
efmCuPme10PProfileGroup OBJECT-GROUPOBJECTS{
efmCuPme10PProfileDescr,
efmCuPme10PBandplanPSDMskProfile,
efmCuPme10PUPBOReferenceProfile,
efmCuPme10PBandNotchProfiles,
efmCuPme10PPayloadDRateProfile,
efmCuPme10PPayloadURateProfile,
efmCuPme10PProfileRowStatus
}STATUScurrentDESCRIPTION"A collection of objects that constitute a configuration
profile for configuration of 10PASS-TS ports."::={ efmCuGroups 8}
efmCuPme10PStatusGroup OBJECT-GROUPOBJECTS{
efmCuPme10PFECCorrectedBlocks,
efmCuPme10PFECUncorrectedBlocks
}STATUScurrentDESCRIPTION"A collection of objects providing status information
specific to 10PASS-TS PMEs."::={ efmCuGroups 9}-- Compliance Statements
efmCuCompliance MODULE-COMPLIANCESTATUScurrentDESCRIPTION"The compliance statement for 2BASE-TL/10PASS-TS interfaces.
Compliance with the following external compliance statements
is REQUIRED:
MIB Module Compliance Statement
---------- --------------------
IF-MIB ifCompliance3
EtherLike-MIB dot3Compliance2
MAU-MIB mauModIfCompl3
Compliance with the following external compliance statements
is OPTIONAL for implementations supporting PME Aggregation
Function (PAF) with flexible cross-connect between the PCS
and PME ports:
MIB Module Compliance Statement
---------- --------------------
IF-INVERTED-STACK-MIB ifInvCompliance
IF-CAP-STACK-MIB ifCapStackCompliance"MODULE-- this moduleMANDATORY-GROUPS{
efmCuBasicGroup,
efmCuPmeGroup,
efmCuAlarmConfGroup,
efmCuNotificationGroup
}GROUP efmCuPme2BProfileGroup
DESCRIPTION"Support for this group is only required for implementations
supporting 2BASE-TL PHY."GROUP efmCuPme10PProfileGroup
DESCRIPTION"Support for this group is only required for implementations
supporting 10PASS-TS PHY."GROUP efmCuPAFGroup
DESCRIPTION"Support for this group is only required for
implementations supporting PME Aggregation Function (PAF)."GROUP efmCuPAFErrorsGroup
DESCRIPTION"Support for this group is OPTIONAL for implementations
supporting PME Aggregation Function (PAF)."GROUP efmCuPme10PStatusGroup
DESCRIPTION"Support for this group is OPTIONAL for implementations
supporting 10PASS-TS PHY."OBJECT efmCuPmeSubTypesSupported
SYNTAXBITS{
ieee2BaseTLO(0),
ieee2BaseTLR(1),
ieee10PassTSO(2),
ieee10PassTSR(3)}DESCRIPTION"Support for all subtypes is not required. However, at
least one value SHALL be supported."OBJECT efmCuPmeAdminSubType
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required (needed only for PMEs
supporting more than a single subtype, e.g.,
ieee2BaseTLO and ieee2BaseTLR or ieee10PassTSO and
ieee10PassTSR)."OBJECT efmCuTargetSnrMgn
MIN-ACCESSread-onlyDESCRIPTION"Write access is OPTIONAL. For PHYs without write access,
the target SNR margin SHALL be fixed at 5dB for 2BASE-TL
and 6dB for 10PASS-TS."OBJECT efmCuAdaptiveSpectra
MIN-ACCESSread-onlyDESCRIPTION"Write access is OPTIONAL. For PHYs without write access,
the default value SHOULD be false."::={ efmCuCompliances 1}END